We needed to produce a test pattern with tolerances that were 10-times tighter than any industry standards at the time. To achieve this, we had to re-engineer commercial cameras, printers, processors, and densitometers.
Toronto, Canada (PRWEB)
September 21, 2017
DSC Laboratories, developer of innovative products designed to optimize picture quality, is delighted to announce that its president, David F.E. Corley will be awarded the prestigious Camera Origination and Imaging Medal from SMPTE®, (Society of Motion Picture and Television Engineers), the organization whose standards work has supported a century of advances in entertainment technology.
Corley will be honored for his five decades of continuous innovation and calibration tools for image acquisition, display, and color correction. The SMPTE 2017 Awards Gala will take place on Thursday, Oct. 26 in Hollywood, California, during the SMPTE 2017 Annual Technical Conference & Exhibition (SMPTE 2017).
The SMPTE Camera Origination and Imaging Medal recognizes significant technical achievements related to inventions or advances in imaging technology, including sensors, imaging processing electronics, and the overall embodiment and application of image capture devices.
The lack of tight telecine workflows in the 1960s led Corley to design TA2, the industry’s first camera color test chart. Subsequent generations of this innovation are widely used today in content production for film, broadcast, as well as emerging media-centric markets such as law enforcement, security and medical imaging.
“At the time, we were producing 35mm television commercials. Unhappy with the way our films looked on television, I made an appointment with the CBC to find out why,” said Corley, reflecting on the journey that led to the first DSC test pattern.
Working with the CBC Engineering team in Montreal, the problem was identified, and CBC suggested that Corley produce a grayscale test pattern on color film that would optimize color quality during the transfer of film in a telecine film chain.
“We needed to produce a test pattern with tolerances that were 10-times tighter than any industry standards at the time. To achieve this, we had to re-engineer commercial cameras, printers, processors, and…